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  • This episode is brought to you by Nature's Fynd.

  • We teamed up with them to explain the science behind Fy,

  • their nutritional fungi protein.

  • You can check out the link in the description to learn more.

  • [♪ INTRO]

  • For many of us, the black and white stripes of crosswalks

  • are part of everyday life.

  • Well now, one 58-year-old study participant,

  • who was previously almost totally blind,

  • is rejoining that club.

  • According to a study published this week in Nature Medicine,

  • those crosswalk lines are one of the things he was able to see

  • after a combination of gene therapy

  • and some very fancy goggles gave him back

  • a rudimentary version of sight.

  • This is a remarkable milestone for patients

  • with a specific form of blindness.

  • The single participant in this case study had been losing his sight

  • for forty years, because of a disease called retinitis pigmentosa.

  • It currently has no approved treatment for most patients

  • and it results in progressive blindness as the light-sensing cells

  • of the retina stop working or die off.

  • But the researchers saw a potential fix

  • in a technique called optogenetics.

  • That's a tool that makes nerve cells sensitive to light

  • so they can be cued and controlled.

  • It works thanks to microbes with genes that produce

  • light-sensitive proteins called opsins.

  • Using a modified virus as a delivery system,

  • we can get the genes that code for microbial opsins

  • into cells of vertebrates like ourselves.

  • Once that's done, you've got a neuron

  • that produces a protein that can translate light

  • into the very kind of electric current that makes said neuron fire.

  • The end product is a neuron that fires

  • when the right light is shined on it.

  • That has a lot of research applications for studying neural circuits

  • and what different neurons do,

  • we've talked about it a lot on SciShow,

  • but scientists haven't yet found many ways to apply it clinically.

  • In this particular case, though, the researchers injected the viral vector

  • carrying the opsin gene into one of the participant's eyes,

  • where it made neural cells in the retina called ganglion cells

  • sensitive to light.

  • But that was not the final step in the process.

  • The light we see varies widely in different environments,

  • and it doesn't correspond perfectly

  • to the frequency of light that the microbial opsin

  • used in this procedure responds to.

  • Instead, the participant had to learn to use a special pair of goggles,

  • which would translate incoming light into light

  • that could stimulate his genetically modified eye cells.

  • That took a while,

  • because they were essentially reprogramming his brain

  • to know what the heck this weird and foreign information

  • coming from the ganglion cells meant.

  • But finally, seven months after training started,

  • the patient reported being able to see while wearing the goggles.

  • There was that stripey crosswalk, of course, but in the lab,

  • he could also see notebooks and staple boxes

  • of different shades of gray against a white table.

  • In some tasks, he could also say how many objects were on the table

  • or locate where they were and reach for them -- at least part of the time!

  • This trial was to establish the safety of the technique,

  • and there's definitely still more work to be done.

  • Other people have received the gene therapy,

  • but had not completed the training with the goggles

  • at the time this paper was published.

  • They only treated one of the patient's eyes

  • and didn't restore his vision fully.

  • The researchers say that so far,

  • the treatment is low-res enough that it's only helpful

  • in patients with really advanced disease.

  • But stillkind of amazing.

  • It's the first published example of using optogenetics

  • to treat someone's blindness,

  • and the someone in question reports

  • that it's helped him with activities in his everyday life.

  • But that's enough of the light news,

  • let's get to the heavy stuff.

  • This is a mixed metaphor.

  • It's the heavy metal stuff.

  • A study published this week in Nature Geoscience

  • found surprisingly high levels of mercury in meltwater

  • from the Greenland Ice Sheet.

  • Mercury is worth worrying about because it is toxic,

  • and organisms can't really get rid of it once it's in their bodies.

  • That means it accumulates in higher and more toxic levels

  • as you move up the food chain.

  • And in Greenland, which depends on exporting fish

  • like cod and halibut to the rest of the world,

  • increasing mercury levels could have

  • both health and economic impacts.

  • That said, mercury in the Arctic is not a new concern.

  • Concentrations of mercury have increased tenfold in aquatic life

  • up there in the last century and a half,

  • and high concentrations of mercury have been found in Arctic rivers.

  • But until now, no one had really looked at the Greenland Ice Sheet.

  • The ice sheet is a big deal because it is very, very big:

  • it's the second largest body of ice on the planet, and it's melting fast.

  • And the study results were surprising.

  • The researchers found that meltwater coming off the glacier contained levels of

  • mercury that were around ten to a hundred times higher than those in Arctic rivers

  • In fact, they were some of the highest mercury levels

  • recorded in natural water anywhere on Earth.

  • The levels were pretty comparable to what's been found

  • in contaminated and urban areas.

  • And when researchers looked farther downstream

  • at the fjords fed by the glacial meltwater,

  • they found that those had high levels of mercury too.

  • We don't know where all this mercury came from,

  • but the researchers think it likely originated

  • from bedrock erosion or geothermal activity under the glacier,

  • since the concentration in the meltwater is higher

  • than that in the snow on the glacier's surface.

  • They also noticed that microorganisms living below the glacier

  • had adaptations that suggested

  • they were used to living with high mercury concentrations.

  • While it's nice to hear that they don't think this extra mercury

  • is all related to human activity,

  • they do say that an unexpected natural source of mercury

  • might actually be harder to deal with.

  • We often think of the world's glaciers as huge frozen hunks of water.

  • And while we know that they're melting

  • and that that melting is not great,

  • this is a whole other level of complication

  • that we don't normally think about.

  • Because glaciers aren't just huge frozen hunks of water.

  • They've also got other stuff in them.

  • It's gonna help us navigate our warming planet

  • if we have secure sources of protein.

  • And that is where Nature's Fynd comes in.

  • They're working on bringing a microbe with origins

  • in Yellowstone National park all the way to your table,

  • via their breakthrough fermentation process that produces

  • high-protein food.

  • Their nutritional protein, Fy, is meatless, dairy-free, and delicious.

  • I had some of their cream cheese, and it was very good.

  • I also had one of their sausage patties, and it was very good.

  • If you want to learn more about Nature's Fynd

  • and the science behind their meatless and dairy-free foods,

  • check out the link in the description.

  • [♪ OUTRO]

This episode is brought to you by Nature's Fynd.

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用光 治疗失明(Treating Blindness With Light (and Gene Therapy) | SciShow News)

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